KR101398193B1 - Device and Method for Calibration - Google Patents

Abstract

The present invention relates to a calibration apparatus and method, and a calibration apparatus according to an embodiment of the present invention generates a plurality of standard posture models using a model generated based on an image of an object to be measured, A calibration performing unit for determining whether or not the measured posture of the subject taking an action in accordance with the standard posture matches the standard posture of the model and calculating the body value of the subject using a plurality of standard posture models according to the determination result, And a display unit for sequentially displaying standard posture models and superimposing the measurement postures photographed on the displayed standard posture model.

Description

Device and Method for Calibration < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a calibration apparatus and method, and more particularly, to a calibration apparatus and method for automatically comparing a standard posture model created based on a motion capture with an attitude of a subject, .

Motion capture refers to the task of recording the movement of a human body in digital form by attaching a sensor to the body. From the late 1970s, technology began to be known. In the 1980s, human behavior analysis began academically using computers. The key to this technique is to attach the sensor to various parts of the body and then move the virtual character to the same position through the sensor's position value. Motion capture is the process of storing motion data of an actual object as numerical data and then transferring the motion data to a virtual object created by a computer.

It is also used to denote the characters in the film, for example, Gollum, who appeared in the "Lord of the Rings". Golum's facial expressions and movements in the film are composed by recording the actual actor's acting with several infrared cameras, recording it on a computer, and synthesizing the movement as a computerized Gollum character. The hospital rehabilitation department is also used to correct the patient 's walking, or to correct the posture of athletes.

In addition, it is a computer graphic computation technology that can extract the facial expressions for expression of emotions as 3D data as well as the motion of the person, so that the movement of the character can be produced more quickly and naturally. It is a process of storing the motion of an actual object as numerical data and then transferring the motion data to the object of computer simulation.

However, for example, in the conventional motion capture method for the patient's walking correction, the body values such as the key, the arm length, and the leg length are individually written in order to input the accurate data.

An embodiment of the present invention is a calibration apparatus and method capable of automatically recognizing a body index from an image acquired by motion capture and automatically acquiring body values for each position of a testee using a standard posture model based on an automatically recognized body index The present invention has been made in view of the above problems.

A calibration apparatus according to an embodiment of the present invention generates a plurality of standard posture models by using a model generated based on an image of a subject to be imaged and generates an image of the subject to take an action in accordance with the plurality of standard posture models A calibration execution unit for determining whether the measured posture matches the standard posture of the model and calculating a body value of the subject using the plurality of standard posture models according to the determination result; And a display unit sequentially displaying the plurality of standard posture models and displaying the displayed standard posture models in a superimposed manner on the displayed standard posture model.

The calibration performing unit may include: a model generating unit for generating the model and generating the plurality of standard posture models based on the generated model; An attitude determination unit for determining whether the measurement posture matches the standard posture; And a calibration section for performing calibration for calculation of the body value.

Wherein the model generation unit corrects the standard posture model when the standard posture and the measurement posture do not match with each other, and provides the calibrated standard posture model to the calibration unit.

The model generating unit stores distance information between an imaging unit that photographs the subject and the subject, and generates a model based on the sensed image using the stored distance information.

The calibration apparatus uses a marker attached to a body-specific region of the subject to determine whether the standard posture and the measurement posture coincide with each other.

The calibration device may further include a status notification unit for notifying that the standard posture and the measurement posture match each other.

According to another aspect of the present invention, there is provided a calibration method comprising: generating a model based on an image of a subject and generating a plurality of standard posture models based on the generated model; Sequentially displaying the plurality of standard posture models and superimposing the captured measurement posture of the subject on the basis of the displayed plurality of standard posture models on the standard posture; Determining whether the standard posture and the measurement posture coincide with each other; And performing calibration for calculating the body value of the subject using the plurality of standard posture models when the determination results match each other.

The calibration method may further include calibrating the standard posture model when the standard posture and the measurement posture do not match with each other, and performing calibration using the calibrated standard posture model.

The calibration method may further include notifying that the standard posture matches the measurement posture when the standard posture matches the measurement posture.

Wherein the step of generating the model based on the image of the subject is performed by using the distance information between the object to be measured and the imaging unit for imaging the object to be inversely proportional to a predetermined multiple (1 / n, And the model is created at a point where the model is a positive integer).

The step of generating the plurality of standard posture models may be characterized by multiplying the body index of the model by the predetermined multiple to determine the body index of the standard posture model.

1 shows a calibration system according to an embodiment of the present invention,
Figure 2 illustrates the structure of the calibration device of Figure 1,
3 is a view for explaining a method of calculating a physical index of an examinee,
4 is a diagram for explaining a process of comparing a standard posture and an attitude of a testee,
5 is a flow chart illustrating a calibration method according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a view showing a calibration system according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating the structure of the calibration apparatus of FIG.

1 and 2, a calibration system according to an embodiment of the present invention may include some or all of the plate 100, the imaging unit 110, and the calibration device 120, Time). For example, the imaging unit 110 may be configured as part of the calibration device 120. [ It is therefore intended to cover all such modifications in order to facilitate a thorough understanding of the invention.

Here, the plate 100 may correspond to a matrix on which the examinee is placed. It is preferable that such a matrix includes a relatively dark color so that an image photographed through the image sensing unit 110 can be easily discriminated in a subsequent image processing process. For example, a screen may be used to facilitate photographing in a photograph shop, and the plate 100 of the present invention may be used in a similar concept. However, the embodiment of the present invention differs from the first embodiment in that when the calibration device 120 measures the body index of a testee using a coordinate value, the coordinate value is set according to the size of the plate 100.

The image sensing unit 110 may photograph a subject positioned on the plate 100 and provide the image, more precisely, the sensed image to the calibration device 120. Here, the captured image means a unit frame image. At this time, the image sensing unit 110 may allow the calibration device 120 to calculate the body index of the examinee first, and then provide the sensed image according to various actions taken by the examinee. Furthermore, a plurality of image sensing units 110 may be provided around the plate 100 to allow the plurality of image sensing units 110 to photograph an object to be inspected in various directions and to provide an image sensing image to the calibration device 120 There will be. In such a case, the calibration apparatus 120 may be able to more accurately measure the body index of the examinee using the sensed image taken in various directions.

The calibration device 120 stores information on the distance between the camera and the subject constituting the imaging unit 100 in order to measure the body index of the subject. Accordingly, a virtual model is generated on the screen, for example, at a midpoint of the distance, and the actual body index of the testee can be calculated by doubling it. Further, the calibration apparatus 120 according to the embodiment of the present invention may set the coordinate values for the plate 100 and calculate the body index of the testee using the coordinates. In other words, when a value for the size of the plate 100 is input, the calibration device 120 sets the coordinates for the plate 100 to an absolute coordinate or a relative coordinate value based on the size. If the absolute coordinate is to set the coordinate value in the direction from the upper right end of the plate 100 to the lower left end, the relative coordinate refers to the central point of the plate 100 and is divided into quadrants from the first quadrant to set coordinate values .

For example, when a captured image of a subject is received through the imaging unit 110, the calibration apparatus 120 first calculates the body index of the subject using the captured image. At this time, the trigonometric function can be applied to calculate the body index, or an algorithm using the trigonometric function can be implemented. In other words, since the calibration device 120 stores information on a certain distance and can know the value of the height through the virtual model, information on the body index of the subject can be calculated first. I will discuss more about this later.

The calibration device 120 creates a model for display on the screen with the measured values. Then, based on the generated model, a model of the standard posture of various positions can be generated. When the standard posture model for each posture is generated as described above, the calibration device 120 displays the corresponding standard posture model on the screen. At this time, in order to guide the attitude of the examinee to the standard posture, an automatic tracking point such as a fingertip, a toe, a head, a perineum, and an arbitrary display point desired by the examinee are classified into a body center line, a shoulder horizon, To be acquired.

For example, it is possible to display each standard posture on the display unit 240 of FIG. 2, except that the posture of the examinee photographed by the image capturing unit 110 is superimposed and displayed on the standard posture and the posture of the examinee is judged to match the standard posture It performs automatic calibration in such a way that it notifies by alarm, for example, and displays the following attitude. Here, the automatic calibration refers to a standard posture and automatically acquires the arm length, key, shoulder width, pelvic width, and foot size at the time when the posture matches the posture of the examinee, and acquires sensor data of position data and motion capture This means mutual calibration. In other words, various body values of the testee are calculated based on the model. However, when the automatic acquisition is not smooth, the automatic acquisition reference point on the monitor can be adjusted and calibrated, and various values of the body value can be obtained through the calibrated model.

In this process, the calibration device 120 can attach a marker to a specific position of the body part of the examinee in order to more accurately determine whether the posture of the examinee matches the standard posture. When the marker is used as described above, the image captured by the imaging unit 110 can be more accurately compared with the standard posture on the basis of the marker, thereby making comparison easier and accurate measurement.

2, the calibration device 120 includes a communication module 200, a model generation unit 210, a posture determination unit 220, a control unit 230, a display unit 240, A status notification unit 250, and a calibration unit 260. [0035]

Here, the communication module 200 can receive the sensed image from the sensing unit 110 of FIG. 1 and perform the image processing process. Here, the image processing process may include a process such as image compensation. In addition, the communication module 200 may process image information in a wireless manner rather than a wired connection with the image sensing unit 110, so that the present invention is not limited to such a communication method. If it is a wireless system, it is desirable to process information in a manner of short-range communication.

The model generating unit 210 calculates information on the body index of the testee based on the captured image provided under the control of the controller 230, and generates a model using the calculated body index. Then, based on the generated model, it is possible to generate additional models having the standard posture. At this time, the model generating unit 210 may store the distance information between the camera and the testee to calculate the body index of the testee, and may use the distance information. For example, if you know the physical index of the model at half the distance, you can calculate the physical index of the subject by doubling the body index at that time. It will be possible.

The posture determination unit 220 compares the standard postures of the postures generated by the model generation unit 210 with the postures of the photographed subjects photographed by the imaging unit 110 or based on the markers, do. Then, the control unit 230 provides the determination result to the status notification unit 250 to notify the status. When it is determined that the postures do not coincide with each other, the user can calibrate the model by, for example, resetting the virtual model using a mouse or the like.

The control unit 230 controls the operation of the communication module 200, the model generation unit 210, the orientation determination unit 220, the display unit 240, the status notification unit 250, and the calibration unit 260 in the calibration device 120 It can take charge of overall control. In other words, the control unit 230 may display the model generated by the model generating unit 210 on the display unit 240, display the model of the standard posture and the attitude of the examinee on the display unit 240, And the model generating unit 210 may be controlled so that an alarm is generated and the next posture is displayed when the postures match with each other.

The display unit 240 may display various information according to a request of the user using the calibration device 120, as described above. More specifically, the model generated by the model generating unit 210 can be displayed according to the standard posture, and the posture of the testee for matching with the standard posture is superimposed and displayed.

The status notification unit 250 may be a speaker for outputting a warning sound, and may further be capable of flashing an alarm light or a lamp unit. That is, in the embodiment of the present invention, any method may be used as long as it can inform the user or the testee that the standard attitude and the measurement attitude of the testee coincide with each other.

The calibration unit 260 receives the standard posture model when the standard posture matches the posture of the testee as a result of the determination made by the posture determination unit 220 and outputs the various body values of the examinee based on the standard posture model Can be obtained. Also, when the postures do not match, calculate the body figure of the examinee based on the drag pit, that is, the corrected standard posture model. Through this process, the calibration unit 260 may output various body values of the examinee to the display unit 240, for example. Here, the body level of the testee may be arm length, height, shoulder width, pelvic width, foot size, and the like.

The calibration device 120 has been described by way of example in hardware for convenience of explanation. However, the model generation unit 210, the posture determination unit 220, and the calibration unit 260 may be integrated into one form and implemented as an algorithm. Accordingly, the model generation unit 210, the posture determination unit 220, and the calibration unit 260, which are integrated with each other, may be collectively referred to as a calibration execution unit.

3 is a diagram for explaining a method of calculating a body index of a subject to be examined.

Referring to FIG. 3 together with FIG. 1, when the distance between the examinee and the camera is set to 2000 cm, the calibration apparatus 120 of FIG. 1 determines that a virtual standard model having a length of 90 cm is located at 1000 cm If it can be set to be located, it can be said that it corresponds to practically 180 cm. That is, if the key of the standard model is matched to the automatically recognized key by comparing the key of the testee recognized by the camera, then the actual key of the testee can be obtained by doubling it.

Other information such as the arm length and shoulder width when the arm is open, the length of the foot when standing sideways, and the height of the ankle can also be obtained in this manner. The body length of the virtual model through the monitor It is possible to acquire various body values of the testee. However, in the embodiment of the present invention, the mouse is not particularly limited as far as it is possible to control.

4 is a view for explaining a process of comparing a standard posture and an attitude of a testee.

Referring to FIG. 4 together with FIG. 1, a calibration device 120 according to an embodiment of the present invention sequentially displays standard models of attitudes generated using an image captured first through a camera on a screen.

For example, as shown in Fig. 4, a standard posture model with both arms opened is displayed on the screen, and then an image of the examinee taking a posture corresponding to the standard posture model is superimposed on the standard posture model. . For example, the calibrator 120 outputs an alarm and calculates a body value for each part of the examinee through the corresponding model.

However, if they do not match, the user will calibrate the model using, for example, a mouse, and when the standard posture model and the attitude of the testee agree with each other through such a correction, It is possible to calculate and provide the body value for each of the remaining parts.

In this way, the attitude of the standard model and the attitude of the testee can be simultaneously fed back to obtain a more accurate attitude to the examinee. In this process, the accurate posture can be obtained, .

5 is a flow chart illustrating a calibration method according to an embodiment of the present invention.

For convenience of explanation, referring to FIG. 5 together with FIG. 1, the calibration apparatus 120 receives a captured image of a subject (or a subject to be examined), acquires the body index of the subject using the received image, And creates a used model (S501). In the course of this process, the calibration device 120 may store the distance information between the camera and the subject to be photographed. Therefore, it is possible to obtain a real body index for the testee by generating a model that meets the intermediate point, and by calculating twice the body index of the calculated model. Thereafter, the calibration device 120 generates various standard posture models based on the body indexes.

Next, the calibration apparatus 120 displays a standard posture model for each posture on the screen, photographs the posture of the examinee who takes a posture according to the displayed standard posture model, displays them on the screen so as to overlap each other (S503) (S505).

If they coincide with each other, the calibration device 120 may display a state to indicate that they match (S507). For example, although it is preferable to output an alarm in the embodiment of the present invention, it may be output in the form of a message indicating whether the alarm is coincident with the screen, or it may be possible to omit the process. In the embodiment, such status indication is not particularly limited.

Thereafter, the calibration device 120 calculates various body values of the examinee from the standard posture model when the posture taken by the testee coincides with the standard posture. This is referred to as automatic calibration in the embodiment of the present invention. In other words, by implementing a calibration algorithm, for example, body values such as arm length, shoulder width, pelvic width, and foot size can be obtained from the standard posture model.

If the standard posture model does not match the posture taken by the examinee, the calibration device 120 calibrates the posture of the standard posture model, for example, by the mouse adjustment of the examinee. This can be referred to as a drag-fit. By doing so, it is possible to acquire the body figure based on the model by matching the standard posture model of the specific posture with the posture of the examinee. This also applies to the calibration process.

When the calibration process is finally completed, the calibration device 120 may display the result on the screen or transmit the result to a place where the corresponding information is required.

While the invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

100: plate 110:
120: Calibration device 200: Communication module
210: model generation unit 220:
230: Control section 240:
250: status notification unit 260: calibration unit

Claims (11)

A plurality of standard posture models having a standard posture are generated based on an arbitrary model having a human shape generated based on an image of the subject photographed through an image pickup unit, A calibration execution unit which determines whether or not the measured posture of the subject taking the measured posture matches the standard posture of the model and maintains or corrects the plurality of standard posture models according to the determination result, ; And
And a display unit for sequentially displaying the plurality of standard posture models and displaying the captured standard posture model in a superimposed manner on the displayed standard posture model,
Wherein the calibration performing unit comprises:
A model generating unit for generating the model and generating the plurality of standard posture models based on the generated arbitrary human shape model;
An attitude determination unit for determining whether the measurement posture matches the standard posture; And
And a calibration unit for performing calibration for calculation of the body value,
Wherein the model generating unit corrects the standard posture model when the standard posture and the measurement posture do not coincide with each other, and provides the corrected standard posture model to the calibration unit,
Wherein the calibration performing unit comprises:
Wherein the calculation unit calculates the body value of the subject using the distance of the model positioned between the imaging unit and the subject and the standard posture models maintained or corrected. delete delete A plurality of standard posture models having a standard posture are generated based on an arbitrary model having a human shape generated based on an image of the subject photographed through an image pickup unit, A calibration execution unit which determines whether or not the measured posture of the subject taking the measured posture matches the standard posture of the model and maintains or corrects the plurality of standard posture models according to the determination result, ; And
And a display unit for sequentially displaying the plurality of standard posture models and displaying the captured standard posture model in a superimposed manner on the displayed standard posture model,
Wherein the calibration performing unit comprises:
A model generating unit for generating the model and generating the plurality of standard posture models based on the generated arbitrary human shape model;
An attitude determination unit for determining whether the measurement posture matches the standard posture; And
And a calibration unit for performing calibration for calculation of the body value,
Wherein the calibration performing unit comprises:
Calculates a body value of the subject using the distance of the model positioned between the imaging unit and the subject and the standard posture models maintained or corrected,
Wherein the model generating unit stores distance information between an imaging unit that photographs the subject and the subject, and generates a model based on the captured image at a position of the stored distance information. The method according to claim 1,
Wherein the calibration apparatus uses a marker attached to a body-specific region of the subject to determine whether the standard posture and the measurement posture coincide with each other. The method according to claim 1,
Wherein the calibration apparatus further comprises a status notification unit for notifying that the standard posture and the measurement posture match each other. Generating an arbitrary model having a human shape based on an image of a subject photographed through an image pickup unit and generating a plurality of standard posture models having a standard posture based on the generated model;
Sequentially displaying the plurality of standard posture models and superimposing the captured measurement posture of the subject on the basis of the displayed plurality of standard posture models on the standard posture;
Determining whether the standard posture and the measurement posture coincide with each other;
Performing calibration to calculate the body value of the subject using the plurality of standard posture models when the determination results match; And
And calibrating the standard posture model when the standard posture and the measurement posture do not coincide with each other, and performing calibration using the calibrated standard posture model,
Wherein performing the calibration comprises:
Wherein the body value of the subject is calculated using the plurality of standard posture models maintained or corrected according to the distance of the model positioned between the imaging unit and the subject and the determination result. delete 8. The method of claim 7,
Wherein the calibration method further comprises notifying that the standard posture matches the measurement posture when the standard posture and the measurement posture coincide with each other. Generating an arbitrary model having a human shape based on an image of a subject photographed through an image pickup unit and generating a plurality of standard posture models having a standard posture based on the generated model;
Sequentially displaying the plurality of standard posture models and superimposing the captured measurement posture of the subject on the basis of the displayed plurality of standard posture models on the standard posture;
Determining whether the standard posture and the measurement posture coincide with each other; And
And performing calibrations to calculate the body values of the subject using the plurality of standard posture models when the determination results match,
Wherein the step of generating the model based on the image of the subject is performed by using the distance information between the object to be measured and the imaging unit for imaging the object to be inversely proportional to a predetermined multiple (1 / n, Wherein the model is generated at a point where the model is a positive integer. 11. The method of claim 10,
Wherein the generating of the plurality of standard posture models comprises multiplying the body index of the model by the predetermined multiple to determine the body index of the standard posture model.

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